Team:KULeuven/Model/Filter

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**huge peak of lactonase
**huge peak of lactonase
**reset of the timer: amount of complex goes to zero
**reset of the timer: amount of complex goes to zero
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====3. Proof of filtering capacities====
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todo: maarten (fr. 29/08)
=== Sensitivity Analysis ===
=== Sensitivity Analysis ===
[[Image:Sens Filter.png|center]]
[[Image:Sens Filter.png|center]]

Revision as of 16:45, 30 August 2008

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Pictogram filter.png

Contents

Filter

Position in the system

The filter is positioned immediately after the input, because its job is to filter out possible noise signals or background signals that aren't caused by the "desease". It is the starting piece of the whole system, situated before the invertimer- and the reset-subsystem.

Describing the system

see also: Project:Filter

Filter BioBrick.jpg

ODE's

Parameters

Parameter values Filter
Name Value Comments Reference
Degradation rates
dpT7 tag 0.00155 s-1 UmuD tag added to speed up degradation of otherwise too stable T7 polymerase link
dmRNA RIBOKEY 0.00462 s-1 estimate: because this RNA isn't translated, it degrades faster link
dclosed mRNA T7 0.00462 s-1 estimate: because this mRNA isn't translated, it degrades faster link
dopen mRNA T7 0.00231 s-1 link
dopen mRNA T7 complex 0.00231 s-1 link
Equilibrium constants
Keq 1 0,015 [M] between closed and open T7 mRNA, experimental link
Keq 2 0.0212 [M] between closed T7 mRNA and key unlocked mRNA complex, experimental link
Rate constants
kdis 0.00416 s-1 derived from experimental values link
kcomplex 0.00237 s-1 derived from experimental values link
kclosed 500 s-1 derived from experimental values link
kopen 7.5 s-1 derived from experimental values link
ktranslation 0.167 s-1 lock defined translation rate for T7 RNA pol link
Transcription rates
TetR_var_transcr_rate p(TetR) dependent (RiboKey) between 5E-5 and 0.0125 s-1 ~ [aTc]
kmRNA T7 0,0011 s-1 weak constitutive promoter J23109 link

Remark: The key-lock system has been enhanced to 0.3%-14% (new parameters have been added)

Models

CellDesigner (SBML file)

filter

Matlab (SBML file)

Filter Matlab.jpg

Simulations

filter
Filter 1.PNG

1. AND gate of the filter

In the simulation we can clearly see this series of events:

  • when dark blue(ribokey) starts to increase, red (T7) also starts to increase, giving rise to an increasing amount of lactonase (blue) = AND-GATE.
  • when dark blue(ribokey) starts to decrease, red (T7) also starts to decrease, but much slower. The lactonase also starts to decrease, as it should be.

The short lifetime of the ribokey compared to the lifetime of the T7-protein, guarantees that the AND-GATE always works perfectly fine: when there's no more input, the ribokey will rapidly decrease (and disappear) and makes sure that the AND-GATE is not activated anymore, even when the T7-protein is slowly decreasing.

2. Filtering in practice

In the simulation three kinds of inputpulses have been used:

  • First pulse: 300s
    • small peak of lactonase
    • no influence on the timer
  • Second pulse: 1000s
    • medium peak of lactonase
    • influences the timer by levelling the timing capabilities, but it doesn't reset the timer
  • Third pulse: 5000s
    • huge peak of lactonase
    • reset of the timer: amount of complex goes to zero

3. Proof of filtering capacities

todo: maarten (fr. 29/08)

Sensitivity Analysis

Sens Filter.png